```
void some_function() {
int d[] = new int[10];
int e[] = new int[15];
int f[] = new int[20];
int g[] = new int[25];
int h[] = new int[30];
int i[] = new int[35];
int j[] = new int[40];
int k[] = new int[45];
int l[] = new int[50];
int m[] = new int[55];
int n[] = new int[60];
int o[] = new int[65];
int p[] = new int[70];
int q[] = new int[75];
int r[] = new int[80];
int s[] = new int[85];
int t[] = new int[90];
int u[] = new int[95];
int v[] = new int[100];
//Randomly generate int elements of the array
int master_list[][] = {d, e, f, g, h, i, j, k, l, m, n,
o, p, q, r, s, t, u, v};
Random gen = new Random();
int i_array[];
double run_times[][] = new double[19][6];
double start, end, total_time_1, total_time_2, total_time_3;
double comp_1, comp_2, comp_3;
for(int idex = 0; idex < master_list.length; idex++) {
i_array = master_list[idex];
//Randomly generate integers to put in each array
for(int jdex = 0; jdex < master_list[idex].length; jdex++) {
i_array[jdex] = gen.nextInt(10);
}
comp_1 = ((14*(Math.pow(i_array.length, 2)))
+ (i_array.length/2) + 4);
comp_2 = ((14*i_array.length) + 35);
comp_3 = ((19*i_array.length) + 4);
/* This is the part where we begin to print and calculate
data for our report. It begins with caluculating the
run time of each algorithm by calling the system clock
method of System.nanoTime() */
System.out.println("Input size: " + i_array.length);
System.out.println("Run time of Algorithm 1:");
start = System.nanoTime();
driver.algorithm_1(i_array);
end = System.nanoTime();
total_time_1 = end - start;
System.out.println("Total time elapsed: " + total_time_1
+ " milliseconds.");
//We then add this time into the [19][6] matrix.
run_times[idex][0] = total_time_1;
run_times[idex][3] = comp_1;
//The process then repeats for algorithm 2
System.out.println("Run time of Algorithm 2:");
start = System.nanoTime();
driver.algorithm_2(i_array);
end = System.nanoTime();
total_time_2 = end - start;
System.out.println("Total time elapsed: " + total_time_2
+ " milliseconds.");
run_times[idex][1] = total_time_2;
run_times[idex][4] = comp_2;
//Yet again another repitition for algorithm 3
System.out.println("Run time of Algorithm 3:");
start = System.nanoTime();
driver.algorithm_3(i_array);
end = System.nanoTime();
total_time_3 = end - start;
System.out.println("Total time elapsed: " + total_time_3
+ " milliseconds.\n");
run_times[idex][2] = total_time_3;
run_times[idex][5] = comp_3;
}
}
```

So the issue with this whole thing is that I'm trying to create an array of size run_times[19][6], However, I'm only getting a list of size [10][5].

So, the algorithm is taking int arrays d - v and generating random elements for them. I'm then calculating the run times and complexities of each algorithm (not included).

The run time array is something like this: [0][0] = algorithm_1 time [0][1] = algorithm_2 time [0][2] = algorithm_3 time [0][3] = algorithm_1 complexity [0][4] = algorithm_2 complexity [0][5] = algorithm_3 complexity

The complexity double is plugging the array size in for n in the T(n) recurrence relation.

Any idea of what's wrong? It compiles and has no run-time errors.

`ArrayList<Integer>`

instead of`int[]`

. – Bhesh Gurung Nov 2 '12 at 3:55`ArrayList<Integer>`

and then call`Collection`

's`arrayList.toArray(new Integer[0])`

– MouseEvent Nov 2 '12 at 4:48